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Mapping the prevalence of severe acute malnutrition in Papua, Indonesia by using geostatistical models

Mapping the prevalence of severe acute malnutrition in Papua, Indonesia by using geostatistical models
Mapping the prevalence of severe acute malnutrition in Papua, Indonesia by using geostatistical models

Background: Severe acute malnutrition (SAM) is the most life-threatening form of malnutrition, and in 2019, approximately 14.3 million children under the age of 5 were considered to have SAM. The prevalence of child malnutrition is recorded through large-scale household surveys run at multi-year intervals. However, these surveys are expensive, yield estimates with high levels of aggregation, are run over large time intervals, and may show gaps in area coverage. Geospatial modelling approaches could address some of these challenges by combining geo-located survey data with geospatial data to produce mapped estimates that predict malnutrition risk in both surveyed and non-surveyed areas. Methods: A secondary analysis of cluster-level program evaluation data (n = 123 primary sampling units) was performed to map severe acute malnutrition (SAM) in Papuan children under 2 years (0–23 months) of age with a spatial resolution of 1 × 1 km in Papua, Indonesia. The approach used Bayesian geostatistical modelling techniques and publicly available geospatial data layers. Results: In Papua, Indonesia, SAM was predicted in geostatistical models by using six geospatial covariates related primarily to conditions of remoteness and inaccessibility. The predicted 1-km spatial resolution maps of SAM showed substantial spatial variation across the province. By combining the predicted rates of SAM with estimates of the population under 2 years of age, the prevalence of SAM in late 2018 was estimated to be around 15,000 children (95% CI 10,209–26,252). Further tests of the predicted levels suggested that in most areas of Papua, more than 5% of Papuan children under 2 years of age had SAM, while three districts likely had more than 15% of children with SAM. Conclusions: Eradication of hunger and malnutrition remains a key development goal, and more spatially detailed data can guide efficient intervention strategies. The application of additional household survey datasets in geostatistical models is one way to improve the monitoring and timely estimation of populations at risk of malnutrition. Importantly, geospatial mapping can yield insights for both surveyed and non-surveyed areas and can be applied in low-income country contexts where data is scarce and data collection is expensive or regions are inaccessible.

Bayesian geostatistics, Mapping, Papua, Indonesia, Prevalence threshold, Severe acute malnutrition
Jasper, Paul
5781a1e7-b300-46c2-86c0-fdc592b72a69
Jochem, Warren
ef65df67-4364-4438-92e9-f93ceedb8da1
Lambert-Porter, Emma
c5a14d11-8737-4d6d-87ea-aa00e015c551
Naeem, Umer
9250a341-fefb-4b0c-b460-e523995014fa
Utazi, Chigozie
e69ca81e-fb23-4bc1-99a5-25c9e0f4d6f9
Jasper, Paul
5781a1e7-b300-46c2-86c0-fdc592b72a69
Jochem, Warren
ef65df67-4364-4438-92e9-f93ceedb8da1
Lambert-Porter, Emma
c5a14d11-8737-4d6d-87ea-aa00e015c551
Naeem, Umer
9250a341-fefb-4b0c-b460-e523995014fa
Utazi, Chigozie
e69ca81e-fb23-4bc1-99a5-25c9e0f4d6f9

Jasper, Paul, Jochem, Warren, Lambert-Porter, Emma, Naeem, Umer and Utazi, Chigozie (2022) Mapping the prevalence of severe acute malnutrition in Papua, Indonesia by using geostatistical models. BMC Nutrition, 8 (1), [13]. (doi:10.1186/s40795-022-00504-z).

Record type: Article

Abstract

Background: Severe acute malnutrition (SAM) is the most life-threatening form of malnutrition, and in 2019, approximately 14.3 million children under the age of 5 were considered to have SAM. The prevalence of child malnutrition is recorded through large-scale household surveys run at multi-year intervals. However, these surveys are expensive, yield estimates with high levels of aggregation, are run over large time intervals, and may show gaps in area coverage. Geospatial modelling approaches could address some of these challenges by combining geo-located survey data with geospatial data to produce mapped estimates that predict malnutrition risk in both surveyed and non-surveyed areas. Methods: A secondary analysis of cluster-level program evaluation data (n = 123 primary sampling units) was performed to map severe acute malnutrition (SAM) in Papuan children under 2 years (0–23 months) of age with a spatial resolution of 1 × 1 km in Papua, Indonesia. The approach used Bayesian geostatistical modelling techniques and publicly available geospatial data layers. Results: In Papua, Indonesia, SAM was predicted in geostatistical models by using six geospatial covariates related primarily to conditions of remoteness and inaccessibility. The predicted 1-km spatial resolution maps of SAM showed substantial spatial variation across the province. By combining the predicted rates of SAM with estimates of the population under 2 years of age, the prevalence of SAM in late 2018 was estimated to be around 15,000 children (95% CI 10,209–26,252). Further tests of the predicted levels suggested that in most areas of Papua, more than 5% of Papuan children under 2 years of age had SAM, while three districts likely had more than 15% of children with SAM. Conclusions: Eradication of hunger and malnutrition remains a key development goal, and more spatially detailed data can guide efficient intervention strategies. The application of additional household survey datasets in geostatistical models is one way to improve the monitoring and timely estimation of populations at risk of malnutrition. Importantly, geospatial mapping can yield insights for both surveyed and non-surveyed areas and can be applied in low-income country contexts where data is scarce and data collection is expensive or regions are inaccessible.

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More information

Published date: 14 February 2022
Keywords: Bayesian geostatistics, Mapping, Papua, Indonesia, Prevalence threshold, Severe acute malnutrition

Identifiers

Local EPrints ID: 455044
URI: http://eprints.soton.ac.uk/id/eprint/455044
PURE UUID: 97467470-6d92-42b0-9737-3f5877c64153
ORCID for Warren Jochem: ORCID iD orcid.org/0000-0003-2192-5988

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Date deposited: 07 Mar 2022 17:30
Last modified: 17 Mar 2024 03:41

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Contributors

Author: Paul Jasper
Author: Warren Jochem ORCID iD
Author: Emma Lambert-Porter
Author: Umer Naeem
Author: Chigozie Utazi

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